Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:Rna-seq analysis of wild type and Kmt2c mutant hematopoietic progenitors

Project description:ChIP-seq analysis of wild type and Kmt2c mutant hematopoietic progenitors

Project description:ATAC-seq analysis of wild type and Kmt2c mutant hematopoietic progenitors

Project description:Maintenance of mammalian telomeres requires both the enzyme telomerase and shelterin, which protect telomeres from inappropriately activating DNA damage response checkpoints. Dyskeratosis congenita is an inherited BM failure syndrome disorder because of defects in telomere maintenance. We have previously shown that deletion of the shelterin component Pot1b in the setting of telomerase haploinsufficiency results in rapid telomere shortening and fatal BM failure in mice, eliciting phenotypes that strongly resemble human syskeratosis congenita. However, it was unclear why BM failure occurred in the setting of Pot1b deletion. In this study, we show that Pot1b plays an essential role in HSC survival. Deletion of Pot1b results in increased apoptosis, leading to severe depletion of the HSC reserve. BM from Pot1b(?/?) mice cannot compete with BM from wild-type mice to provide multilineage reconstitution, indicating that there is an intrinsic requirement for Pot1b the maintenance of HSC function in vivo. Elimination of the p53-dependent apoptotic function increased HSC survival and significantly extended the lifespan of Pot1b-null mice deficient in telomerase function. Our results document for the first time the essential role of a component of the shelterin complex in the maintenance of HSC and progenitor cell survival.

Project description:Kmt2c-mutations superimpose properties of activated and quiescent HSCs to convey a selective advantage after chemotherapy

Project description:Elucidation of the molecular cues required to balance adult stem cell self-renewal and differentiation is critical for advancing cellular therapies. Herein, we report that the hematopoietic stem cell (HSC) self-renewal agonist UM171 triggers a balanced pro- and anti-inflammatory/detoxification network that relies on NFKB activation and protein C receptor-dependent ROS detoxification, respectively. We demonstrate that within this network, EPCR serves as a critical protective component as its deletion hypersensitizes primitive hematopoietic cells to pro-inflammatory signals and ROS accumulation resulting in compromised stem cell function. Conversely, abrogation of the pro-inflammatory activity of UM171 through treatment with dexamethasone, cAMP elevating agents or NFkB inhibitors abolishes EPCR upregulation and HSC expansion. Together, these results show that UM171 stimulates ex vivo HSC expansion by establishing a critical balance between key pro- and anti-inflammatory mediators of self-renewal.

Project description:Kmt2c-mutations superimpose properties of activated and quiescent HSCs to convey a selective advantage after chemotherapy [ATAC-seq]

Project description:Kmt2c-mutations superimpose properties of activated and quiescent HSCs to convey a selective advantage after chemotherapy [ChIP-seq]

Project description:Kmt2c-mutations superimpose properties of activated and quiescent HSCs to convey a selective advantage after chemotherapy [RNA-seq]